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Impact of simulated selection for feed efficiency and length of breeding season on beef life cycle performance
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Williams, C.B., Jenkins, T.G. 2008. Impact of simulated selection for feed efficiency and length of breeding season on beef life cycle performance [abstract]. Journal of Animal Science. 86(E-Supplement 2):254-255.
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IMPACT OF SELECTION FOR FEED EFFICIENCY ON BEEF LIFE CYCLE PERFORMANCE
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Williams, C.B., Jenkins, T.G. 2006. Impact of selection for feed efficiency on beef life cycle performance. In: Proceedings of the 8th World Congress of Genetics Applied in Livestock Production, August 13-18, 2006, Belo Horizonte, MD Brazil, 2006 CDROM.
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DECISION SUPPORT MODEL OF NUTRIENT EXCRETION IN BEEF FEEDLOTS
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Williams, C.B., Jenkins, T.G. 2006. Decision support model of nutrient excretion in beef feedlots [abstract]. Journal of Animal Science 84(Suppl. 1):291.
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USING SIMULATION MODELS TO PREDICT FEED INTAKE: PHENOTYPIC AND GENETIC RELATIONSHIPS BETWEEN OBSERVED AND PREDICTED VALUES IN CATTLE
- (Peer Reviewed Journal)
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Williams, C.B., Bennett, G.L., Jenkins, T.G., Cundiff, L.V., Ferrell, C.L. 2006. Using simulation models to predict feed intake: phenotypic and genetic relationships between observed and predicted values in cattle. Journal of Animal Science. 84(6):1310-1316.
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PREDICTING THE PROTEIN CONTENT OF FAT-FREE MATTER GAINS IN BEEF CATTLE
- (Popular Publication)
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Williams, C.B. 2005. Predicting the protein content of fat-free matter gains in beef cattle. Feedinfo News Service Scientific Reviews. September 2005. Available: http://www.feedinfo.com.
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TECHNICAL NOTE: A DYNAMIC MODEL TO PREDICT THE COMPOSITION OF FAT-FREE MATTER GAINS IN CATTLE
- (Peer Reviewed Journal)
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Williams, C.B. 2005. Technical note: a dynamic model to predict the composition of fat-free matter gains in cattle. Journal of Animal Science. 83(6):1262-1266.
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USING SIMULATION MODELS TO PREDICT FEED INTAKE: PHENOTYPIC AND GENETIC RELATIONSHIPS BETWEEN OBSERVED AND PREDICTED VALUES
- (Abstract)
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Williams, C.B., Bennett, G.L., Jenkins, T.G., Cundiff, L.V., Ferrell, C.L. 2005. Using simulation models to predict feed intake: Phenotypic and genetic relationships between observed and predicted values [abstract]. Journal of Animal Science. 83(Supplement 1):13-14.
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A DYNAMIC MODEL TO PREDICT THE COMPOSITION OF FAT-FREE MATTER GAINS IN CATTLE
- (Abstract)
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WILLIAMS, C.B. A DYNAMIC MODEL TO PREDICT THE COMPOSITION OF FAT-FREE MATTER GAINS IN CATTLE. JOURNAL OF ANIMAL SCIENCE. 2003. v. 81(SUPP.1): ABSTRACT P. 307.
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A DYNAMIC MODEL OF METABOLIZABLE ENERGY UTILIZATION IN GROWING AND MATURE CATTLE. I. METABOLIZABLE ENERGY UTILIZATION FOR MAINTENANCE AND SUPPORT METABOLISM
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WILLIAMS, C.B., JENKINS, T.G. A DYNAMIC MODEL OF METABOLIZABLE ENERGY UTILIZATION IN GROWING AND MATURE CATTLE. I. METABOLIZABLE ENERGY UTILIZATION FOR MAINTENANCE AND SUPPORT METABOLISM. JOURNAL OF ANIMAL SCIENCE. 2003. v. 81. p. 1371-1381.
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A DYNAMIC MODEL OF METABOLIZABLE ENERGY UTILIZATION IN GROWING AND MATURE CATTLE. II. METABOLIZABLE ENERGY UTILIZATION FOR GAIN
- (Peer Reviewed Journal)
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WILLIAMS, C.B., JENKINS, T.G. A DYNAMIC MODEL OF METABOLIZABLE ENERGY UTILIZATION IN GROWING AND MATURE CATTLE. II. METABOLIZABLE ENERGY UTILIZATION FOR GAIN. JOURNAL OF ANIMAL SCIENCE. 2003. v. 81. p. 1382-1389.
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A DYNAMIC MODEL OF METABOLIZABLE ENERGY UTILIZATION IN GROWING AND MATURE CATTLE. III. MODEL EVALUATION
- (Peer Reviewed Journal)
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WILLIAMS, C.B., JENKINS, T.G. A DYNAMIC MODEL OF METABOLIZABLE ENERGY UTILIZATION IN GROWING AND MATURE CATTLE. III. MODEL EVALUATION. JOURNAL OF ANIMAL SCIENCE. 2003. v. 81. p. 1390-1398.
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APPLICATION OF THE RICHARD'S FUNCTION TO CHARACTERIZE GROWTH POTENTIAL FOR DIFFERENT BIOLOGICAL TYPES OF CATTLE
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Williams, C.B. 2002. Application of the richard's function to characterize growth potential for different biological types of cattle [abstract]. Journal of Animal Science. 80(Suppl. 1):213.
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